The Simulated Universe
The Simulated Universe
What's the definition of a Simulated Universe? The Simulated Universe argument suggests that the universe we live in is a complex simulation that is the actual universe. Every aspect of life, including animals as well as plants and bacteria are included in the simulation. This extends beyond Earth. It is believed that all planets asteroids, comets galaxies and stars black holes, galaxies, and the nebula also are in the simulation. In reality, the whole Universe is a computer simulation that runs within a highly sophisticated computer system created by an extremely intelligent species who lives in a cosmic parent. In this essay I will provide an explanation on the Simulated Universe argument and explain the reasons why philosophers believe there is a strong chance that we live in an actual simulation. I will then go over the evidence will be required to determine whether we are in an actual simulation. In the final part, I will outline two arguments against the argument, before concluding that, while intriguing it is not a good idea to accept any Simulated Universe argument. Visit:- https://unimudasorong.ac.id/ A Possibility The idea that we live in a virtual universe result of the fact that there is a possibility for computers to mimic everything that functions as the computer. A computer is able to simulate any mechanistic device that adheres to the rules of a set of pre-defined rules. Since that the Universe is a rules-based system operating under an undefined physical law that we are able to comprehend and comprehend, it is logical that it could be replicated by a computer. The supporters for the Simulated Universe argument suggest that If it's feasible in our current technology to create an entire universe, it's probable that we are within a virtual universe. Why do they believe this idea? It is because those who support the Simulated Universe argument suppose that If it's feasible to construct the simulation of our own, we'll likely create one in the near future, as long as our human desires and preferences remain the same as they are right now (Bostrom 2001: pg 9). They conclude it is likely that any animal species which develops within the simulation would likely create its very own Simulated Universe. It is possible for them to create their own because they exist and they exist within an imaginary universe. The possibility exists to continue the creation of universes for as long as you want and each one spawning intelligent species that construct themselves their own models. With the almost endless number of universes with children there is a greater chance that we are within one or more of these billions of virtual simulations than the single parent universe. This is particularly evident when we look at the possibility that in these universes, there could exist multiple worlds with intelligent lifeforms, all of which are making their own models. What is the way this can work? When you view the computer that is running a simulation universe, it's not necessarily an option to turn on a video monitor or computer screen to see the universe from afar. The computer doesn't contain virtual reality-based creations of individuals living their lives in their universe. It's not like playing games like "The Sims" or "Second Life". There aren't any graphics to be seen. From the outside the only thing you can see are numbers. It's that simple. A complex manipulations of numbers. Like any software this type of data is created by the computer hardware. They are kept in permanent storage devices, like Hard-drives. Later, they are transferred to RAM to be used by Central Processing Units (CPUs). The numbers of the simulated universe software are the physical laws of the universe. Additionally, they represent energy and matter within the universe. While the program runs the numbers are altered by the rules of the program, which are algorithms that represent the physical laws. This alteration results in diverse numbers that remain to be controlled by the program's rules. Massive data structures of numbers are shifted around in the computer's memory when they interconnect with various data structure. As the universe that is simulated grows the structures get more complicated but the laws which govern their operation remain in place and unchangeable. From a designer's perspective, the universe that is simulated contains only complex data structures. However, for the creatures that reside within the simulation universe, it's all real. They sit in their windows and gaze at breathtaking sunsets. They wander around the yard and take in the scent fresh cut grass. They can look at the stars that are visible in their skies and imagine one day exploring other worlds. For the people living in the universe that they have created, all things are solid and tangible. Like in the actual universe it's everything is reducible into numbers, rules and. It is crucial to remember that the computer isn't simulation of every particle subatomic that exists in our universe. In his 2001 paper, Nick Bostrom points out that it is not feasible running a model to this degree of depth. The simulation should only be able to simulate local phenomena at the highest level of detail. Galaxies and distant objects may have compressed representations due to the fact that we don't see them sufficiently well to discern each atom (Bostrom 2001: pg. 4). This is an idea we can further investigate. Maybe the entire universe and local phenomena is compressed in some manner. The simulation might appear to be "interpreted" by its inhabitants as being composed of subatomic particles and atoms however, in reality it's quite different. When we examine modern physical science, we can find it is possible to make this a plausible possibility. Take the principle of indeterminacy that is used in quantum Physics. The observer is unable to measure the momentum and position of a particle at the same time. In addition, it appears that subatomic particles don't have a specific position or speed until the observation is taken. Subatomic particles are not present in the way we have come to experience at the macro scale. Since we don't directly experience subatomic particles, we can say the existence of subatomic particles is a reflection of a reality for which we do not have direct access. In a virtual Universe, that reality may be represented by data arrays that represent energy and matter.

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